// Copyright (C) 2015 André Bargull. All rights reserved.
// This code is governed by the BSD license found in the LICENSE file.

/*---
es6id: 25.4.4.1
description: >
  Throws a TypeError if either resolve or reject capability is not callable.
info: |
  Promise.all ( iterable )

  ...
  6. Let promiseCapability be NewPromiseCapability(C).
  7. ReturnIfAbrupt(promiseCapability).
  ...

  25.4.1.5 NewPromiseCapability ( C )
    ...
    4. Let executor be a new built-in function object as defined in GetCapabilitiesExecutor Functions (25.4.1.5.1).
    5. Set the [[Capability]] internal slot of executor to promiseCapability.
    6. Let promise be Construct(C, «executor»).
    7. ReturnIfAbrupt(promise).
    8. If IsCallable(promiseCapability.[[Resolve]]) is false, throw a TypeError exception.
    9. If IsCallable(promiseCapability.[[Reject]]) is false, throw a TypeError exception.
    ...
---*/

function Test() {
    var checkPoint = "";
    function fn1(executor) {
      checkPoint += "a";
    }
    Object.defineProperty(fn1, 'resolve', {
      get() { throw new Test262Error; }
    });
    assert.throws(TypeError, function() {
      Promise.all.call(fn1, []);
    }, "executor not called at all");
    assert.sameValue(checkPoint, "a", "executor not called at all");

    checkPoint = "";
    function fn2(executor) {
      checkPoint += "a";
      executor();
      checkPoint += "b";
    }
    Object.defineProperty(fn2, 'resolve', {
      get() { throw new Test262Error; }
    });
    assert.throws(TypeError, function() {
      Promise.all.call(fn2, []);
    }, "executor called with no arguments");
    assert.sameValue(checkPoint, "ab", "executor called with no arguments");

    checkPoint = "";
    function fn3(executor) {
      checkPoint += "a";
      executor(undefined, undefined);
      checkPoint += "b";
    }
    Object.defineProperty(fn3, 'resolve', {
      get() { throw new Test262Error; }
    });
    assert.throws(TypeError, function() {
      Promise.all.call(fn3, []);
    }, "executor called with (undefined, undefined)");
    assert.sameValue(checkPoint, "ab", "executor called with (undefined, undefined)");

    checkPoint = "";
    function fn4(executor) {
      checkPoint += "a";
      executor(undefined, function() {});
      checkPoint += "b";
    }
    Object.defineProperty(fn4, 'resolve', {
      get() { throw new Test262Error; }
    });
    assert.throws(TypeError, function() {
      Promise.all.call(fn4, []);
    }, "executor called with (undefined, function)");
    assert.sameValue(checkPoint, "ab", "executor called with (undefined, function)");

    checkPoint = "";
    function fn5(executor) {
      checkPoint += "a";
      executor(function() {}, undefined);
      checkPoint += "b";
    }
    Object.defineProperty(fn5, 'resolve', {
      get() { throw new Test262Error; }
    });
    assert.throws(TypeError, function() {
      Promise.all.call(fn5, []);
    }, "executor called with (function, undefined)");
    assert.sameValue(checkPoint, "ab", "executor called with (function, undefined)");

    checkPoint = "";
    function fn6(executor) {
      checkPoint += "a";
      executor(123, "invalid value");
      checkPoint += "b";
    }
    Object.defineProperty(fn6, 'resolve', {
      get() { throw new Test262Error; }
    });
    assert.throws(TypeError, function() {
      Promise.all.call(fn6, []);
    }, "executor called with (Number, String)");
    assert.sameValue(checkPoint, "ab", "executor called with (Number, String)");
}

// preheat
const NUMBER_OF_PREHEAT = 1;
for (let i = 0; i < NUMBER_OF_PREHEAT; i++) {
    Test();
}

ArkTools.jitCompileAsync(Test);
assert.sameValue(ArkTools.waitJitCompileFinish(Test), true, '[JIT] JIT disabled.');

// test
const NUMBER_OF_TEST = 1; // or 2
for (let i = 0; i < NUMBER_OF_PREHEAT; i++) {
    Test();
}
